Method of automatically tracking and photographing celestial objects, and camera employing this method

1. A method of automatically tracking and photographing a celestial object which moves relative to a photographic apparatus due to diurnal motion so that a celestial object image, which is formed on an imaging surface of an image pickup device via a photographing optical system, becomes stationary relative to a predetermined imaging area of said imaging surface of said image pickup device during a tracking and photographing operation, said method comprising: inputting, latitude information at a photographic site, photographing azimuth angle information, photographing elevation angle information, attitude information of said photographic apparatus via a sensor, and focal length information of said photographing optical system; calculating movement amounts of said celestial object image relative to said photographic apparatus for fixing said celestial object image with respect to said predetermined imaging area of said image pickup device, using all of the input information; and obtaining a photographic image by moving, after start of a shutter release operation, at least one of said predetermined imaging area and said celestial object image based on said calculated relative movement amounts, wherein the attitude information of the photographic apparatus includes rotational angle information which indicates a rotational angle, about the optical axis of the photographing optical system, of one of the photographic apparatus and the image pickup device.

2. The method of automatically tracking and photographing a celestial object according to claim 1 , further comprising obtaining a photographic image while moving said image pickup device in a parallel manner in directions orthogonal to the optical axis of said photographing optical system and rotating said image pickup device about an axis parallel to the optical axis based on said calculated relative movement amounts to photograph said celestial object as a stationary object.

3. The method of automatically tracking and photographing a celestial object according to claim 1 , wherein said predetermined imaging area is a trimmed area which is defined by electronically trimming part of an entire imaging area of said image pickup device, said method further comprising obtaining a photographic image while, based on said calculated relative movement amounts, moving said trimmed area in a parallel manner in directions orthogonal to the optical axis of said photographing optical system and rotating said trimmed area about an axis parallel to the optical axis to photograph said celestial object as a stationary object.

4. The method of automatically tracking and photographing a celestial object according to claim 1 , wherein said predetermined imaging area is a trimmed area which is defined by electronically trimming part of an entire imaging area of said image pickup device, said method further comprising obtaining a photographic image while, based on said calculated relative movement amounts, moving said celestial object image relative to said photographic apparatus by decentering a portion of said photographing optical system, and rotating said trimmed area about an axis parallel to the optical axis of said photographing optical system to photograph said celestial object as a stationary object.

5. The method of automatically tracking and photographing a celestial object according to claim 1 , wherein said predetermined imaging area is a trimmed area which is defined by electronically trimming part of an entire imaging area of said image pickup device, said method further comprising obtaining a photographic image while, based on said calculated relative movement amounts, moving said image pickup device in a parallel manner in directions orthogonal to the optical axis of said photographing optical system and rotating said trimmed area about an axis parallel to the optical axis to photograph said celestial object as a stationary object.

6. The method of automatically tracking and photographing a celestial object according to claim 1 , wherein said relative movement amounts are calculated from all of the input information and a spherical triangle which connects the zenith, a celestial pole and a position of a center of a picture plane on a celestial hemisphere.

8. A celestial-object auto-tracking photographic camera comprising an operational device for calculating said relative movement amounts to perform said method of automatically tracking and photographing said celestial object according to claim 1 .

9. The celestial-object auto-tracking photographic camera according to claim 8 , comprising a mover which moves said image pickup device in a parallel manner in directions orthogonal to the optical axis of said photographing optical system and rotates said image pickup device about an axis parallel to the optical axis based on said calculated relative movement amounts.

10. The celestial-object auto-tracking photographic camera according to claim 8 , wherein said predetermined imaging area is a trimmed area which is defined by electronically trimming part of an entire imaging area of said image pickup device, and wherein said celestial-object auto-tracking photographic camera comprises a mover which moves said trimmed area in a parallel manner in directions orthogonal to the optical axis of said photographing optical system and rotates said trimmed area about an axis parallel to the optical axis based on said calculated relative movement amounts.

11. The celestial-object auto-tracking photographic camera according to claim 8 , wherein said predetermined imaging area is a trimmed area which is defined by electronically trimming part of an entire imaging area of said image pickup device, and wherein said celestial-object auto-tracking photographic camera comprises a mover which moves said celestial object image relative to said photographic apparatus by decentering a portion of said photographing optical system, and rotates said trimmed area about an axis parallel to the optical axis of said photographing optical system based on said calculated relative movement amounts.

12. The celestial-object auto-tracking photographic camera according to claim 8 , wherein said predetermined imaging area is a trimmed area which is defined by electronically trimming part of an entire imaging area of said image pickup device, and wherein said celestial-object auto-tracking photographic camera comprises a mover which moves said image pickup device in a parallel manner in directions orthogonal to the optical axis of said photographing optical system and rotates said trimmed area about an axis parallel to the optical axis.

13. The celestial-object auto-tracking photographic camera according to claim 8 , wherein said operational device calculates said relative movement amounts from all of the input information and a spherical triangle which connects the zenith, a celestial pole and a position of a center of a picture plane on a celestial hemisphere.

15. The method of automatically tracking and photographing a celestial object according to claim 1 , the attitude information of said photographic apparatus being input upon a release switch of the photographing apparatus being turned ON.

16. The celestial object auto tracking photographic camera according to claim 8 , said camera being provided with a gravity sensor which inputs the attitude information of said photographic camera.

17. The celestial object auto tracking photographic camera according to claim 8 , further comprising a release switch, the attitude information of said photographing apparatus being input upon said release switch being turned ON.

18. The method of automatically tracking and photographing a celestial object according to claim 1 , further including locating a photographic apparatus at a fixed location with respect to the ground.

19. The method of automatically tracking and photographing a celestial object according to claim 1 , further comprising inputting date/time information.